Accelerated differentiation of neo-W nuclear-encoded mitochondrial genes between two climate-associated bird lineages signals potential co-evolution with mitogenomes

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Gabriel Weijie Low, Alexandra Pavlova, Han Ming Gan, Meng-Ching Ko, Keren R. Sadanandan, Yin Peng Lee, J. Nevil Amos, Lana Austin, Stephanie Falk, Damian K. Dowling, Paul Sunnucks
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Abstract

There is considerable evidence for mitochondrial-nuclear co-adaptation as a key evolutionary driver. Hypotheses regarding the roles of sex-linkage have emphasized Z-linked nuclear genes with mitochondrial function (N-mt genes), whereas it remains contentious whether the perfect co-inheritance of W genes with mitogenomes could hinder or facilitate co-adaptation. Young (neo-) sex chromosomes that possess relatively many N-mt genes compared to older chromosomes provide unprecedented hypothesis-testing opportunities. Eastern Yellow Robin (EYR) lineages in coastal and inland habitats with different climates are diverged in mitogenomes, and in a ~ 15.4 Mb nuclear region enriched with N-mt genes, in contrast with otherwise-similar nuclear genomes. This nuclear region maps to passerine chromosome 1A, previously found to be neo-sex in the inland EYR genome. To compare sex-linked Chr1A-derived genes between lineages, we assembled and annotated the coastal EYR genome. We found that: (i) the coastal lineage shares a similar neo-sex system with the inland lineage, (ii) neo-W and neo-Z N-mt genes are not more diverged between lineages than are comparable non-N-mt genes, and showed little evidence for broad positive selection, (iii) however, W-linked N-mt genes are more diverged between lineages than are their Z-linked gametologs. The latter effect was ~7 times stronger for N-mt than non-N-mt genes, suggesting that W-linked N-mt genes might have diverged between lineages under environmental selection through co-evolution with mitogenomes. Finally, we identify a candidate gene driver for divergent selection, NDUFA12. Our data represent a rare example suggesting a possible role for W-associated mitochondrial-nuclear interactions in climate-associated adaptation and lineage differentiation.

Abstract Image

Abstract Image

新W核编码线粒体基因在两个与气候相关的鸟类种系之间的加速分化预示着与有丝分裂基因组的潜在共同进化。
有大量证据表明,线粒体-核共同适应是进化的关键驱动力。有关性连锁作用的假说强调了具有线粒体功能的 Z 连锁核基因(N-mt 基因),而 W 基因与有丝分裂基因组的完美共遗传是否会阻碍或促进共同适应,仍然存在争议。与较老的染色体相比,年轻(新)的性染色体拥有相对较多的 N-mt 基因,这为我们提供了前所未有的假设检验机会。在气候不同的沿海和内陆栖息地,东方黄罗宾(EYR)种系在有丝分裂基因组和一个富含N-mt基因的约15.4 Mb核区上存在差异,这与其他相似的核基因组形成了鲜明对比。该核区域映射到传粉动物的 1A 染色体,以前曾发现该染色体在内陆 EYR 基因组中具有新性别。为了比较不同种系之间的性连锁 Chr1A 衍生基因,我们对沿海 EYR 基因组进行了组装和注释。我们发现(i) 沿岸品系与内陆品系具有相似的新性别系统;(ii) 新 W 和新 Z N-mt 基因在不同品系之间的差异并不比可比的非 N-mt 基因大,而且几乎没有证据表明存在广泛的正选择;(iii) 然而,W 连锁 N-mt 基因在不同品系之间的差异比 Z 连锁配子基因大。后者对 N-mt 基因的影响是非 N-mt 基因的 7 倍,这表明 W 连锁 N-mt 基因可能是在环境选择下通过与有丝分裂基因组共同进化而在不同种系之间发生分化的。最后,我们发现了一个驱动分化选择的候选基因--NDUFA12。我们的数据代表了一个罕见的例子,表明与 W 相关的线粒体-核相互作用可能在与气候相关的适应和种系分化中发挥作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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